#!/usr/bin/env python
# -*- coding: utf-8 -*-

"""
*What is this pattern about?
This pattern aims to decouple the senders of a request from its
receivers. It does this by allowing a request to move through chained
objects until it is handled by an appropriate receiver.

This is useful as it reduces the number of connections between objects,
since the sender does not need explicit knowledge of the handler, and
the receiver won't need to refer to all potential receivers, but keeps
a reference to a single successor.

*References:
http://www.dabeaz.com/coroutines/

*TL;DR80
Allow a request to pass down a chain of objects until an object handles
the request.
"""

from contextlib import contextmanager
import os
import sys
import time
import abc


class Handler(object):
    __metaclass__ = abc.ABCMeta

    def __init__(self, successor=None):
        self._successor = successor

    def handle(self, request):
        res = self._handle(request)
        if not res:
            self._successor.handle(request)

    @abc.abstractmethod
    def _handle(self, request):
        raise NotImplementedError('Must provide implementation in subclass.')


class ConcreteHandler1(Handler):

    def _handle(self, request):
        if 0 < request <= 10:
            print('request {} handled in handler 1'.format(request))
            return True


class ConcreteHandler2(Handler):

    def _handle(self, request):
        if 10 < request <= 20:
            print('request {} handled in handler 2'.format(request))
            return True


class ConcreteHandler3(Handler):

    def _handle(self, request):
        if 20 < request <= 30:
            print('request {} handled in handler 3'.format(request))
            return True


class DefaultHandler(Handler):

    def _handle(self, request):
        print('end of chain, no handler for {}'.format(request))
        return True


class Client(object):

    def __init__(self):
        self.handler = ConcreteHandler1(
            ConcreteHandler3(ConcreteHandler2(DefaultHandler())))

    def delegate(self, requests):
        for request in requests:
            self.handler.handle(request)


def coroutine(func):
    def start(*args, **kwargs):
        cr = func(*args, **kwargs)
        next(cr)
        return cr
    return start


@coroutine
def coroutine1(target):
    while True:
        request = yield
        if 0 < request <= 10:
            print('request {} handled in coroutine 1'.format(request))
        else:
            target.send(request)


@coroutine
def coroutine2(target):
    while True:
        request = yield
        if 10 < request <= 20:
            print('request {} handled in coroutine 2'.format(request))
        else:
            target.send(request)


@coroutine
def coroutine3(target):
    while True:
        request = yield
        if 20 < request <= 30:
            print('request {} handled in coroutine 3'.format(request))
        else:
            target.send(request)


@coroutine
def default_coroutine():
    while True:
        request = yield
        print('end of chain, no coroutine for {}'.format(request))


class ClientCoroutine:

    def __init__(self):
        self.target = coroutine1(coroutine3(coroutine2(default_coroutine())))

    def delegate(self, requests):
        for request in requests:
            self.target.send(request)


def timeit(func):

    def count(*args, **kwargs):
        start = time.time()
        res = func(*args, **kwargs)
        count._time = time.time() - start
        return res
    return count


@contextmanager
def suppress_stdout():
    try:
        stdout, sys.stdout = sys.stdout, open(os.devnull, 'w')
        yield
    finally:
        sys.stdout = stdout


if __name__ == "__main__":
    client1 = Client()
    client2 = ClientCoroutine()
    requests = [2, 5, 14, 22, 18, 3, 35, 27, 20]

    client1.delegate(requests)
    print('-' * 30)
    client2.delegate(requests)

    requests *= 10000
    client1_delegate = timeit(client1.delegate)
    client2_delegate = timeit(client2.delegate)
    with suppress_stdout():
        client1_delegate(requests)
        client2_delegate(requests)
    # lets check which is faster
    print(client1_delegate._time, client2_delegate._time)

### OUTPUT ###
# request 2 handled in handler 1
# request 5 handled in handler 1
# request 14 handled in handler 2
# request 22 handled in handler 3
# request 18 handled in handler 2
# request 3 handled in handler 1
# end of chain, no handler for 35
# request 27 handled in handler 3
# request 20 handled in handler 2
# ------------------------------
# request 2 handled in coroutine 1
# request 5 handled in coroutine 1
# request 14 handled in coroutine 2
# request 22 handled in coroutine 3
# request 18 handled in coroutine 2
# request 3 handled in coroutine 1
# end of chain, no coroutine for 35
# request 27 handled in coroutine 3
# request 20 handled in coroutine 2
# (0.2369999885559082, 0.16199994087219238)
